Educational Robotic Kit: Level 1 & 2
Educational Robotic Kit: Level 1 & 2
The Educational Robotic Kit: Level 1 is a perfect introduction to robotics for students in Grades 4th-8th. Students will learn scientific principles as they build 45 robots including a Line Tracer, Avoider, Battle Robot, Soccer Robot, and more. The step-by-step curriculum will lead you through 12 weeks of instruction for 2-3 students. All activities are available in Google 3D Warehouse and you can build your own 3D models to better understand the engineering process.
After building the activities with the Educational Robotic Kit: Level 1, your students in Grades 5-10 can move on to the next level of robotics with The Educational Robotic Kit: Level 2. The step-by-step activities cover scientific and engineering principles while exploring robotic programming. Build the Tank Robot, Tricycle Robot, Chaser Robot, and many more robots over the 12 week schedule.
Access all of the robotic curriculum at: www.stemfinity.com/dn
User Creative Robotics Software is for only for Windows Operating Systems.
Main Controller (1 pcs)
- 8bit Microprocessor: ATMega16
- Character LCD with driver IC (HT1621)
- 2 X 2 channel DC Motor Control with driver IC (LB1836M)
- Input Port: Fixed 1 remote signal input port & 7 input ports for sensors (Ir, Sound, Cds...)
- Output Port: 8 output ports for LED, Beeper, Servo Motor...
- Operation Mode
- 8 remote control communication channel
- Built-in battery holder: Requires 6 AA Batteries (Not Included)
- Low battery display at LCD
- ISP & USB connector
- 10 key Remote controller
- Remote signal receiver
- Ir-Photo TR sensor
- Touch Sensor
- Microphone Sensor
- LED Module
- DC Motor
- DC Motor shaft
Servo Motor (1 pcs)
- 2 output axis
- Torque: 2.5 Kg·cm
- Speed: 0.2sec / 60 (6.0 V)
- Weight: 43 g
- Size: 50.8 x 38.1 x 25.4 mm
- Cable: Vcc (Red), Ground (Black), Signal (White)
USB Cable (1 pcs)
- Connecter Type
- Length: 1000 mm
Brick (20 pcs)
- Type & Quantity
- Material: ABS
Frame (140 pcs)
- Type & Quantity
- Material: ABS
Axis (52 pcs), Bushing (60 pcs)
- Type & Quantity
- Material: ABS
Gear (8 pcs), Wheel (12 pcs), Rubber shoe (8 pcs), Universal Joint (4 pcs), Hinge (4 pcs)
- Type & Quantity

- Material: ABS, Silicon
Caterpillar Track & Rubber
- Type & Quantity
- Material: ABS, Silicon
- Type & Quantity
- Material: PVC sheet + Printing
- Type & Quantity
- Material: ABS, SS40
- Type & Quantity
- Material: PP, SS40
Educational Robotic Kit: Programming Software:
Sample Schedule:
Month | Week | Subject | STUDY CONTENTS |
1 | 1 | Robot Definition | 1) What is the robot? |
2) What kind of parts are used in EQ-ROBO1 kit? | |||
& | 3) Exercise 1 : Assemble individual parts (brick, frame, axis, bushing, bolt, nut) | ||
4) Exercise 2 : Making diagram figures (triangle, rectangle, octangle, circle) | |||
Part list of EQ-ROBO1 | 5) Exercise 3 : Making models (dragonfly, giraffe, fox, spider, elephant, chair) | ||
2 | Object's identify | 1) Creative thinking | |
-. Find the characteristics of object and Expression | |||
& | 2) Exercise 1 : Represent the characteristics of athletes | ||
-. swimmer, tennis player, fencer, striker, goalkeeper, fencer, weight lifter | |||
Expression | 3) Exercise 2 : Represent the characteristics of objects | ||
-. bicycle, rocking chair, windmill, boat, helicopter, airplane, firearm, motorcycle | |||
3 | Science principle-I in life | 1) Machine Foundations-I | |
-. the center of gravity, leverage principles, link structure, friction, power transmission | |||
2) Exercise 1 : Making the seesaw (the center of gravity, leverage principles) | |||
3) Exercise 2 : Making the Viking rides (friction) | |||
4) Bonus exercise 1 : Making the watermill (power transmission) | |||
5) Bonus exercise 2 : Making the ringing a bell (link structure) | |||
4 | Science principle-II in life | 1) Machine Foundations-II | |
-. elastic power | |||
2) Exercise 1 : Making the catapult (leverage principle & elasticity of rubber band) | |||
3) Exercise 2 : Making the rubber band power-driven car | |||
4) Exercise 3 : Making the ScissorsBot (link structure & elasticity of rubber band) | |||
5) Bonus exercise 1 : Making the rubber band power-driven propeller plane | |||
2 | 5 | Science principle-III in life | 1) Machine Foundations-III |
- motor, gear, gear train, gear ratio, crank | |||
2) Exercise 1 : Making a manual fan (acceleration gear) | |||
3) Exercise 2 : Making a dancing clown (motor, power transmission) | |||
4) Exercise 3 : Making a 4-legged crawler (motor, reduction gear, crank, link) | |||
5) Bonus exercise 1 : Making a shoveling machine (reduction gear, crank, link) | |||
6 | Science principle-IV in life | 1) Electronics Foundations-I | |
-. Brain of robot : main controller's function, usage and I/O ports | |||
2) Exercise 1 : Making a helicopter (main controller, 1 motor) (safety training) | |||
3) Exercise 2 : Making a BeetleBot (main controller, 1 motor) | |||
4) Class robot competition : 1m running using BeetleBot | |||
7 | Science principle-V in life | 1) Electronics Foundations-II | |
-. Infrared ray, Ir & Photo TR sensor | |||
2) Exercise 1 : Making a troublemaker (main controller, Ir sensor, 2 motor) | |||
3) Bonus exercise 1 : Making a copy machine (main controller, Ir sensor, 2 motor) | |||
8 | Line tracer | 1) Robot-I | |
-. Line tracing concept, operation principles and basic algorithm | |||
2) Exercise 1 : Making a line tracing robot (main controller, 3 Ir sensor, 2 motor) | |||
3) Exercise 2 : Testing the operating status according to the different sensor's distance | |||
4) Class robot competition : Line tracing | |||
3 | 9 | Science principle-VI in life | 1) Electronics Foundations-III |
- Remote controller | |||
2) Exercise 1 : remote controller's function, usage and communication channel setting | |||
3) Exercise 2 : Making a brick board game (main controller, remote controller, 1 motor) | |||
4) Exercise 3 : Making a remote control car (main controller, remote controller, 2 motor) | |||
5) Class robot competition : Car racing by remote controller | |||
10 | Avoider | 1) Robot-II | |
-. Obstacle avoiding concept, operation principles and basic algorithm | |||
2) Exercise 1 : Making an avoider robot (main controller, 3 Ir sensor, 2 motor) | |||
3) Exercise 2 : Testing the operating status according to the different sensor's distance | |||
4) Class robot competition : Obstacle avoiding | |||
11 | Battle robot | 1) Robot-III | |
-. Understanding the conductors, insulators, semiconductors | |||
2) Exercise 1 : Making a battle robot (main controller, remote controller, 2 motor) | |||
3) Class robot competition | |||
-. 1:1 battle competition (sumo wrestling) | |||
-. 2:2 battle competition (bursting the balloon) | |||
12 | Soccer robot | 1) Robot-IV | |
-. Understanding the electric current, voltage and resistance | |||
2) Exercise 1 : Making a spider soccer robot | |||
3) Exercise 2 : Making a scorpion soccer robot | |||
4) Class robot competition : 3:3 robot soccer game |